Which of the following integrals will correctly solve for the force a circular conductor with radius 4.20 m and center at origin experiences if the magnetic field in the region is given asB = p² cospa + p sind (2+z) az T? The circular conductor lies on z = 0 and carries current of 6.9 A.O6.9²* (4.20 sino (2 + 0)) do ap6.9²*(4.20 sing (2 + 0)).4.20 do ap2π-6.9of ²²(4.20 sind (2+0)). 4.20 dø apO The answer cannot be found on the other choices.

Given: Radius = 4.20m Current = 6.9 A B = ρ2 cos ϕ aϕ + ρ sin ϕ2+zaz

Which of the following integrals will correctly solve for the force a circular conductor with radius 4.20 m and center at origin experiences if the magnetic field in the region is given as B = p² cospa + p sind (2+2) a₂ T? The circular conductor lies on z = 0 and carries current of 6.9 A. 2π O 5.9 ² (4.20 sino (2 + 0)) dø ap 2 T O 5.9 (4.20 sino (2 + 0)). 4.20 dø ap -6.9²* (4.20 sind (2+0)). 4.20 do ap O The answer cannot be found on the other choices.

Which of the following integrals will correctly solve for the force a circular conductor with radius 4.20 m and center at origin experiences if the magnetic field in the region is given as B = p² cospa + p sind (2+2) a₂ T? The circular conductor lies on z = 0 and carries current of 6.9 A. 2π O 5.9 ² (4.20 sino (2 + 0)) dø ap 2 T O 5.9 (4.20 sino (2 + 0)). 4.20 dø ap -6.9²* (4.20 sind (2+0)). 4.20 do ap O The answer cannot be found on the other choices.